Dalkeith High School Higher Human Biology Homework 3

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1 Dalkeith High School Higher Human Biology Homework 3 1. During which of the following chemical conversions is A T P produced? A B C Amino acids protein Glucose pyruvic acid Haemoglobin oxyhaemoglobin energy 5. The diagram below shows energy transfer within a cell. Compound X + phosphate energy Cellular Processe D Nucleotides mrna Compound Y 2. The following statements relate to respiration and the mitochondrion. 1 Glycolysis takes place in the mitochondrion. 2 The mitochondrion has two membranes. 3 The rate of respiration is affected by temperature. Which of the above statements are correct? A. 1 and 2 B. 1 and 3 C. 2 and 3 D. All of them 3. The anaerobic breakdown of glucose splits from the aerobic pathway of respiration. A. after the formation of pyruvic acid B. after the formation of acetyl CoA C. after the formation of citric acid D. at the start of glycolysis. 4. In respiration, the products of the cytochrome system are A. hydrogen and carbon dioxide B. water and ATP C. oxygen and ADP D. pyruvic acid and water. Which line in the table below identified correctly compounds X and Y? X Y A glucose ATP B glucose ADP C ADP ATP D ATP glucose 6. The following chart shows stages in the complete breakdown of glucose in aerobic respiration. Glucose Pyruvic acid Stage X Stage Y Krebs cycle Stage Z At which stage or stages is hydrogen released to be picked up by hydrogen acceptors? A. Stages X, Y and Z B. Stages X and Y only C. Stages Y and Z only D. Stage Z only 1

2 7. In respiration, the sequence of reactions resulting in the conversion of glucose to pyruvic acid is called A. the cytochrome system B. the TCA cycle C. the Krebs cycle D. glycolysis. 11. In respiration, the sequence of reactions resulting in the conversion of glucose to pyruvic is called A. the Krebs cycle B. the citric acid cycle C. glycolysis D. the cytochrome chain. 8. The diagram shows part of a liver cell with four parts labelled. In which part is most ATP produced? 12. Which of the following is an insoluble polysaccharide? A. Glycogen B. Glucose C. Sucrose D. Maltose 9. Glycolysis takes place in the A. nucleus B. cristae of mitochondria 13. The graph below shows changes which occur in the masses of protein, fat and carbohydrate in a person s body during seven weeks without food. C. matrix of mitochondria D. cytoplasm. 10. The following diagram represents stages in the complete breakdown of glucose in aerobic respiration. Glucose Stage X Pyruvic acid Stage Y Krebs cycle Stage Z At which stage, or stages, is carbon dioxide released? A. Stages X and Z B. Stages X and Y C. Stages Y and Z D. Stage Z only. Weeks without food The person s starting weight was 60kg. Predict their weight after two weeks without food. A. 57kg B. 54kg C. 50kg D. 43kg 2

3 14. The diagram below shows a metabolic pathway that is controlled by end product inhibition. Substance 1 Substance 2 Substance 3 Substance 4 Enzyme 1 Enzyme 2 Enzyme 3 For Substance 4 to bring about end product inhibition, with which of the following would it interact. A. Enzyme 1 B. Enzyme 3 C. Substance 1 D. Substance The key below can be used to identify carbohydrates. 1. Soluble.2 Insoluble..glycogen 2. Benedict s test positive.3 Benedict s test negative sucrose 3. Barfoed s test positive..4 Barfoed s test negative..lactose 4. Clinistix test positive..glucose Clinistix test negative.fructose Which line in the table of results below is not in agreement with the information contained in the key? Carbohydrate Benedict s test Barfoed s test Clinistix test A lactose positive negative not tested B glucose positive negative positive C fructose positive positive negative D sucrose negative not tested not tested 17. Lysosomes are abundant in 15. The graph shows the effect of substrate concentration on the rate of an enzyme-catalysed reaction. A B C D enzyme secreting cells muscle cells cells involved in protein synthesis phagocytic cells 18. The Golgi apparatus is involved in the packing of A. ribosomes B. monosaccharides C. RNA D. enzymes. At what substrate concentration is the reaction rate equal to 75% of the maximum rate? A. 6 units B. 8 units C. 12 units D. 18 units 3

4 19. Which of the following often act as a co-enzyme? A. Lipids B. Polysaccharides C. Hormones D. Vitamins 21. The diagram below represents stages in tissue respiration. oxygen ADP+P D A + B + carbon dioxide C relaxed muscle 20. The graph shows the effect of substrate concentration on the rate of an enzyme-controlled reaction. Which box represents ATP? X Y Rate of reaction 22. The cell organelle shown below is magnified ten thousand times. Substrate concentration The graph levels out between points X and Y because the A. enzyme is denatured B. active sites are saturated with substrate C. enzyme is inhibited D. enzyme is activated. What is the actual size of the organelle? A. 1.04μm B. 0.4 μm C. 4 μm D. 40 μm 4

5 23. A piece of muscle was cut into three strips X, Y and Z and treated as described in the table. Muscle strip Their final lengths were then measured. Solution added to muscle Muscle length (mm) Start X 1 % glucose Y 1 % ATP Z 1% ATP boiled and cooled From the data it may be deducted that A. ATP is not an enzyme B. muscles contain many mitochondria Muscle length (mm) 10 minutes C. muscles synthesise ATP in the absence of glucose D. muscles do not use glucose as a source of energy. 24. Which line in the table has pairs of statements which are true with regard to aerobic respiration and anaerobic respiration in human muscle tissue? A B C D Aerobic respiration There is a net gain of ATP There is a net gain of ATP Carbon dioxide is evolved Lactic acid is formed Anaerobic respiration Carbon dioxide is not produced Oxygen is used up There is a net loss of ATP Ethanol is formed 5

6 25. The following table gives information on the control of metabolic pathways using inhibitors. Which line in the table is CORRECT? Competitive Non-competitive Feedback inhibition Changes shape of active site of enzyme A. Binds to active site of the enzyme B. End product binds to an enzyme that catalyses a reaction early in the pathway C. Changes shape of active site of enzyme D. Binds to active site of the enzyme Type of inhibitor Changes shape of active site of enzyme Binds to active site of the enzyme End product binds to an enzyme that catalyses a reaction early in the pathway End product binds to an enzyme that catalyses a reaction early in the pathway Binds to active site of the enzyme End product binds to an enzyme that catalyses a reaction early in the pathway Changes shape of active site of enzyme 26. Which of the stages in aerobic respiration produces the most ATP? A. Glycolysis B. Citric Acid C. Krebs Cycle D. Electron Transport (Cytochrome system) 27. Which of the following is a coenzyme found in respiration? A. FAD B. ATP C. NADP D. phosphofructokinases 28. Which of the following statements about the role of dehydrogenase enzyme in respiration is TRUE? A. Dehydrogenase enzymes remove oxygen ions from a substrate B. Dehydrogenase enzymes add hydrogen ions to a substrate C. Dehydrogenase enzymes remove hydrogen ions from a substrate D. Dehydrogenase enzymes add oxygen ions to a substrate 6

7 29. Which of the following statements is CORRECT? A. Slow twitch muscle fibres are good for long distance running because they have fewer mitochondria and greater blood supply than fast twitch muscle fibres. B. Slow twitch muscle fibres are good for long distance running because they have more mitochondria and lesser blood supply than fast twitch muscle fibres. C. Slow twitch muscle fibres are good for long distance running because they have more mitochondria and greater blood supply than fast twitch muscle fibres. D. Slow twitch muscle fibres are good for sprinting because they have more mitochondria and greater blood supply than fast twitch muscle fibres. 30. The diagram below shows two stages of respiration. Stage A Glucose Pyruvate Acetyl coenzyme A (a) (i) Identify stages A and B. Stage A Stage B (ii) Name Substance X. 1 7

8 30 Continued Marks (b) During Stage A, glucose is converted to pyruvate. Name the molecule that provides phosphate for this conversion. 1. (c) The conversion of citrate to substance X in Stage B involves several reactions. Name two molecules, apart from NADH, which are produced during these reactions (d) Phosphofructokinase is an enzyme involved in Stage A. The presence of excess citrate inhibits this enzyme. Explain why this is important in the conservation of resources in the cell. 1 (e) N A D H is also produced during Stage A. Explain the role of N A D H when cells do not get sufficient oxygen for aerobic respiration. 2 8

9 31. The diagram below shows some of the reactions which occur during aerobic respiration. glucose Pyruvic acid Stage A Marks acetyl CoA 4-carbon compound Stage B Citric acid reduced molecule R Molecule R water Stage C molecule S (a) Complete the table by naming stages A, B and C and indicating their exact location within cell. Stage Name Location A B C 3 (b) A glucose molecule contains 6 carbon atoms How may carbon atoms are found in the flowing molecules? Pyruvic acid Citric acid 1 9

10 1. Continued) Marks (c) Complete the following sentences by naming molecules R and S and describing their function with respect to stage C. R is and its function is S is and its function is 2 (d) Under normal circumstances carbohydrate is the main respiratory substrate. In each of the following extreme situations, state the alternative respiratory substrate and explain why the body has to use it. Situation Respiratory substrate Explanation Prolonged starvation Towards the end of a marathon race 2 10

11 32..stages in the chemistry of respiration in a cell which is respiring aerobically. Glucose 3-carbon compound Coenzyme A (CoA) X Acetyl (2C) coenzyme A 4 carbon compound 6 carbon compound 5 carbon compound (a) Name the 3-carbon compound and the 6-carbon compound. 3C 6C 2 (b) Draw a line across the diagram to indicate where this series of reactions would stop if oxygen were not available. 1 (c) State the precise location of the Krebs cycle within the cell 1 (d) Complete the table below to name product X and to describe what happens to each of the products. Product Fate of product X Hydrogen

12 33 The diagram below represents a reaction catalysed by an enzyme in the cytochrome system. (a) (i) What name is given to the part of the enzyme where this reaction occurs? 1 (ii) In which organelle would this reaction take place? 1 (iii) Name the product of this reaction. 1 (b) Cyanide is a poison which inhibits this enzyme. Suggest how cyanide is able to do this. 1 (c) Why do many enzyme-catalysed reactions require the presence of vitamins or Minerals? 1 12

13 33. (Continued) (d) The graph shows the effect of increasing substrate concentration on the rate of this reaction. Rate of reaction Substrate concentration (i) Explain why the graph levels out at high substrate concentration. 1 (ii) Assuming that the enzyme is operating at its optimum ph and temperature, suggest how the rate of reaction could be increased at high substrate concentrations. 1 13

14 34. The graph below shows the changes which occur in a body s food stores during four weeks of food deprivation. Weeks of food deprivation Which of the following conclusions can be drawn from the graph? A The glycogen food store decreases at the fastest rate during week one. B Between weeks three and four the body gains most energy from protein. C Each food store decreases at a constant rate during week one. D Between weeks one and four the body only gains energy from lipid and protein. 34B. Which of the following equations describes correctly the role of creatine phosphate? A ADP + phosphate + creatine B creatine phosphate + ADP C creatine phosphate + ATP D ATP + phosphate creatine phosphate + ATP ATP + creatine ADP + phosphate + creatine creatine phosphate + ADP 14

15 35. The diagram below shows three stages that occur during aerobic respiration. Stage X Reactions in the cytoplasm 1 Stage Y 2 Stage Z metabolic products Reactions in Reaction in matrix of cristae of mitochondrio Mitochondrio (a) Name each stage. X Y Z (b) (i) Arrows 1 and 2 represent the transfer of molecules from one stage to another. Complete the table to identify these molecules. Arrow Name of molecule (ii) Name the two metabolic products of stage Z. and 1 (c) The diagram below shows a mitochondrion from a skin cell. Describe how the structure of mitochondrion from an active muscle cell would differ from the one shown. Give a reason for your answer. Structure difference 1 Reason 1 15

16 36. The diagram below shows the metabolism of three energy sources in a cell. proteins carbohydrates fats Intermediate compound glycerol X Gas Z pyruvic acid acetyl CoA Y (a) Name X, Y and Z X Y Z 2 (b) What term describes the breakdown of carbohydrate into pyruvic acid during respiration? 1 (c) Describe what happens to acetyl CoA after it enters the Krebs Cycle. 1 (d) Under what circumstances would the body gain most of its energy from proteins? 1 (e) Carbohydrate is stored in the body as a polysaccharide. Name this polysaccharide and state where it is stored. Name Location 1 16

17 37. The diagram shows the role of ATP in cell metabolism. glucose + oxygen + proteins Pathway X process Y + ATP (a) Complete the diagram by entering the names of the appropriate substances. 3 (b) (i) Name one stage of pathway X and state where it occurs in the cell. Stage Location 1 (ii) Name the organelle where process Y occurs. 1 (c) Describe two ways in which the diagram would be different under anaerobic conditions (d) Name a respiratory substrate other than glucose. 1 17

18 38. (a) The table below contains three statements about two stages of cellular respiration. Complete the table to indicate whether the statements are True (T) or False (F) for each stage. Stages of Respiration Statement Glycolysis Cytochrome System Occurs in the mitochondrion T Releases carbon dioxide Uses oxygen F 2 (b) The diagram below summarises anaerobic respiration in a muscle cell. Glucose (6C) X (3C) Lactic acid (3C) Pathway Y (i) Name substance X 1 (ii) Which substance would need o be present for pathway Y to occur? 1 (iii) Why is anaerobic respiration considered to be a less efficient process than aerobic respiration? 1 (iv) Glucose is not stored in muscle cells. Name the carbohydrate which is stored in muscle cells. 1 18

19 39. The table below shows the results of chemical tests on five carboydrates. Chemical test Carbohydrate Iodine solution Benedict s Barfoeds s Clinistix strip solution regent Starch Turns blue-black Stays blue Stays blue Stays pink Sucrose Stays brown Stays blue Stays blue Stays pink Lactose Stays brown Turns orange Stays blue Stays pink Fructose Stays brown Turns orange Turns orange Stays pink Glucose Stays brown Turns orange Turns orange Turns purple What is the minimum number of tests that would need to be carried out to identify an unknown carboydrates as lactose? A. One B. Two C. Three D. Four 40. What is the name of the cell structure shown in the diagram below? A. Golgi body B. Mitochondrion C. Lysosome D. Ribosome 41. Which of the following must be present for glycolysis to occur? A. Glucose and oxygen B. ATP and oxygen C. Glucose D. ATP and pyruvic acid 19

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